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Related lectures (32)
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Crystal Structures: Miller Indices and Atom Arrangement
Explores crystal structures, Miller indices, X-ray diffraction, and solid microstructures.
Symmetry in Materials Science
Explores symmetry in materials science, covering crystal elements, symmetry groups, crystal classes, and Bravais lattice system.
Crystal Symmetry and Point Groups
Covers crystal symmetry, point groups, crystal classes, and space groups in relation to crystal structures and descriptions.
Crystal Structures: Arrangement and Diffraction
Explores crystal structures, unit cells, Miller indices, and X-ray diffraction principles.
Crystal Structure: Real and Reciprocal Lattice
Explores crystal structure, real and reciprocal lattice, and Miller indices in the context of wave-particle duality and Schrodinger equation.
Electron Diffraction: Basics and Applications
Covers the fundamentals of electron diffraction and its applications in understanding crystal structures and symmetry, including lattice vectors, lattice planes, and dark-field imaging techniques.
Algebraic Structures and Crystallography
Covers algebraic structures, crystallography, crystal structures, and Euclidean geometry with a focus on vectors and crystal planes.
Solid State Characterization
Covers state-of-the-art methods for solid state characterization and emphasizes choosing the appropriate method for different materials.
Finding Kagome Lattice Systems
Explores the algorithm for classifying systems based on the Kagome lattice structure in materials science.
Crystal Symmetry and Structures
Explores crystal symmetry, systems, lattices, and space groups, emphasizing solid state structures and close-packed arrangements.
Crystal Structures: Cubic Lattices & Miller Indices
Explores cubic crystal structures, coordination numbers, and packing factors in metals and alloys.
Electron Diffraction: Basics & Applications
Explores electron diffraction fundamentals, crystal symmetry, and advanced techniques for materials analysis.
Chemical Bonding: Crystal Lattices and Ionic Solids
Explores chemical bonding in crystal lattices and ionic solids, including properties of ionic compounds and molecular orbitals.
Crystallography Basics: Symmetry and Crystal Classes
Introduces crystallography basics, covering symmetry elements, crystal classes, and their representations.
Quantum Mechanics: 1D Crystals
Covers the quantum mechanics of 1D crystals with periodic boundary conditions.
Crystallography: Unit Cells, Lattices, and Reciprocal Lattice
Introduces crystallography basics, covering unit cells, lattices, and reciprocal lattice concepts.
Supramolecular Organisation in Solid State
Explores supramolecular organization in the solid state, covering pi-conjugated molecules' shapes, crystal structures, and intermolecular interactions.
Crystallographic Structures: Symmetry and Diffraction
Explores crystallography principles, X-ray diffraction, and atomic arrangement in crystals.
Van der Waals Materials: 2D Crystals
Delves into the properties of Van der Waals materials, emphasizing 2D crystals with distinct in-plane bonding and weak interlayer interactions.
Materials Science: Crystal Structures
Covers crystal structures in materials science, including bravais networks and miller indices.
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